// ***************************************************************** -*- C++ -*- /* * Copyright (C) 2004-2018 Exiv2 authors * This program is part of the Exiv2 distribution. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, 5th Floor, Boston, MA 02110-1301 USA. */ /* File: riffvideo.cpp Author(s): Abhinav Badola for GSoC 2012 (AB) History: 18-Jun-12, AB: created Credits: See header file */ // ***************************************************************************** // included header files #include "config.h" #ifdef EXV_ENABLE_VIDEO #include "error.hpp" #include "riffvideo.hpp" #include "futils.hpp" #include "basicio.hpp" #include "tags.hpp" #include "tags_int.hpp" #include "types.hpp" #include "tiffimage_int.hpp" #include "image_int.hpp" // + standard includes #include // ***************************************************************************** // class member definitions namespace Exiv2 { namespace Internal { /*! @brief Dummy TIFF header structure. */ class DummyTiffHeader : public TiffHeaderBase { public: //! @name Creators //@{ //! Default constructor DummyTiffHeader(ByteOrder byteOrder); //! Destructor ~DummyTiffHeader(); //@} //! @name Manipulators //@{ //! Dummy read function. Does nothing and returns true. bool read(const byte* pData, uint32_t size); //@} }; // class TiffHeader DummyTiffHeader::DummyTiffHeader(ByteOrder byteOrder) : TiffHeaderBase(42, 0, byteOrder, 0) { } DummyTiffHeader::~DummyTiffHeader() { } bool DummyTiffHeader::read(const byte* /*pData*/, uint32_t /*size*/) { return true; } extern const TagVocabulary infoTags[] = { { "AGES", "Xmp.video.Rated" }, { "CMNT", "Xmp.video.Comment" }, { "CODE", "Xmp.video.EncodedBy" }, { "COMM", "Xmp.video.Comment" }, { "DIRC", "Xmp.video.Director" }, { "DISP", "Xmp.audio.SchemeTitle" }, { "DTIM", "Xmp.video.DateTimeOriginal" }, { "GENR", "Xmp.video.Genre" }, { "IARL", "Xmp.video.ArchivalLocation" }, { "IART", "Xmp.video.Artist" }, { "IAS1", "Xmp.video.Edit1" }, { "IAS2", "Xmp.video.Edit2" }, { "IAS3", "Xmp.video.Edit3" }, { "IAS4", "Xmp.video.Edit4" }, { "IAS5", "Xmp.video.Edit5" }, { "IAS6", "Xmp.video.Edit6" }, { "IAS7", "Xmp.video.Edit7" }, { "IAS8", "Xmp.video.Edit8" }, { "IAS9", "Xmp.video.Edit9" }, { "IBSU", "Xmp.video.BaseURL" }, { "ICAS", "Xmp.audio.DefaultStream" }, { "ICDS", "Xmp.video.CostumeDesigner" }, { "ICMS", "Xmp.video.Commissioned" }, { "ICMT", "Xmp.video.Comment" }, { "ICNM", "Xmp.video.Cinematographer" }, { "ICNT", "Xmp.video.Country" }, { "ICOP", "Xmp.video.Copyright" }, { "ICRD", "Xmp.video.DateTimeDigitized" }, { "ICRP", "Xmp.video.Cropped" }, { "IDIM", "Xmp.video.Dimensions" }, { "IDPI", "Xmp.video.DotsPerInch" }, { "IDST", "Xmp.video.DistributedBy" }, { "IEDT", "Xmp.video.EditedBy" }, { "IENC", "Xmp.video.EncodedBy" }, { "IENG", "Xmp.video.Engineer" }, { "IGNR", "Xmp.video.Genre" }, { "IKEY", "Xmp.video.PerformerKeywords" }, { "ILGT", "Xmp.video.Lightness" }, { "ILGU", "Xmp.video.LogoURL" }, { "ILIU", "Xmp.video.LogoIconURL" }, { "ILNG", "Xmp.video.Language" }, { "IMBI", "Xmp.video.InfoBannerImage" }, { "IMBU", "Xmp.video.InfoBannerURL" }, { "IMED", "Xmp.video.Medium" }, { "IMIT", "Xmp.video.InfoText" }, { "IMIU", "Xmp.video.InfoURL" }, { "IMUS", "Xmp.video.MusicBy" }, { "INAM", "Xmp.video.Title" }, { "IPDS", "Xmp.video.ProductionDesigner" }, { "IPLT", "Xmp.video.NumOfColors" }, { "IPRD", "Xmp.video.Product" }, { "IPRO", "Xmp.video.ProducedBy" }, { "IRIP", "Xmp.video.RippedBy" }, { "IRTD", "Xmp.video.Rating" }, { "ISBJ", "Xmp.video.Subject" }, { "ISFT", "Xmp.video.Software" }, { "ISGN", "Xmp.video.SecondaryGenre" }, { "ISHP", "Xmp.video.Sharpness" }, { "ISRC", "Xmp.video.Source" }, { "ISRF", "Xmp.video.SourceForm" }, { "ISTD", "Xmp.video.ProductionStudio" }, { "ISTR", "Xmp.video.Starring" }, { "ITCH", "Xmp.video.Technician" }, { "IWMU", "Xmp.video.WatermarkURL" }, { "IWRI", "Xmp.video.WrittenBy" }, { "LANG", "Xmp.video.Language" }, { "LOCA", "Xmp.video.LocationInfo" }, { "PRT1", "Xmp.video.Part" }, { "PRT2", "Xmp.video.NumOfParts" }, { "RATE", "Xmp.video.Rate" }, { "STAR", "Xmp.video.Starring" }, { "STAT", "Xmp.video.Statistics" }, { "TAPE", "Xmp.video.TapeName" }, { "TCDO", "Xmp.video.EndTimecode" }, { "TCOD", "Xmp.video.StartTimecode" }, { "TITL", "Xmp.video.Title" }, { "TLEN", "Xmp.video.Length" }, { "TORG", "Xmp.video.Organization" }, { "TRCK", "Xmp.video.TrackNumber" }, { "TURL", "Xmp.video.URL" }, { "TVER", "Xmp.video.SoftwareVersion" }, { "VMAJ", "Xmp.video.VegasVersionMajor" }, { "VMIN", "Xmp.video.VegasVersionMinor" }, { "YEAR", "Xmp.video.Year" } }; extern const TagDetails audioEncodingValues[] = { { 0x1, "Microsoft PCM" }, { 0x2, "Microsoft ADPCM" }, { 0x3, "Microsoft IEEE float" }, { 0x4, "Compaq VSELP" }, { 0x5, "IBM CVSD" }, { 0x6, "Microsoft a-Law" }, { 0x7, "Microsoft u-Law" }, { 0x8, "Microsoft DTS" }, { 0x9, "DRM" }, { 0xa, "WMA 9 Speech" }, { 0xb, "Microsoft Windows Media RT Voice" }, { 0x10, "OKI-ADPCM" }, { 0x11, "Intel IMA/DVI-ADPCM" }, { 0x12, "Videologic Mediaspace ADPCM" }, { 0x13, "Sierra ADPCM" }, { 0x14, "Antex G.723 ADPCM" }, { 0x15, "DSP Solutions DIGISTD" }, { 0x16, "DSP Solutions DIGIFIX" }, { 0x17, "Dialoic OKI ADPCM" }, { 0x18, "Media Vision ADPCM" }, { 0x19, "HP CU" }, { 0x1a, "HP Dynamic Voice" }, { 0x20, "Yamaha ADPCM" }, { 0x21, "SONARC Speech Compression" }, { 0x22, "DSP Group True Speech" }, { 0x23, "Echo Speech Corp." }, { 0x24, "Virtual Music Audiofile AF36" }, { 0x25, "Audio Processing Tech." }, { 0x26, "Virtual Music Audiofile AF10" }, { 0x27, "Aculab Prosody 1612" }, { 0x28, "Merging Tech. LRC" }, { 0x30, "Dolby AC2" }, { 0x31, "Microsoft GSM610" }, { 0x32, "MSN Audio" }, { 0x33, "Antex ADPCME" }, { 0x34, "Control Resources VQLPC" }, { 0x35, "DSP Solutions DIGIREAL" }, { 0x36, "DSP Solutions DIGIADPCM" }, { 0x37, "Control Resources CR10" }, { 0x38, "Natural MicroSystems VBX ADPCM" }, { 0x39, "Crystal Semiconductor IMA ADPCM" }, { 0x3a, "Echo Speech ECHOSC3" }, { 0x3b, "Rockwell ADPCM" }, { 0x3c, "Rockwell DIGITALK" }, { 0x3d, "Xebec Multimedia" }, { 0x40, "Antex G.721 ADPCM" }, { 0x41, "Antex G.728 CELP" }, { 0x42, "Microsoft MSG723" }, { 0x43, "IBM AVC ADPCM" }, { 0x45, "ITU-T G.726" }, { 0x50, "Microsoft MPEG" }, { 0x51, "RT23 or PAC" }, { 0x52, "InSoft RT24" }, { 0x53, "InSoft PAC" }, { 0x55, "MP3" }, { 0x59, "Cirrus" }, { 0x60, "Cirrus Logic" }, { 0x61, "ESS Tech. PCM" }, { 0x62, "Voxware Inc." }, { 0x63, "Canopus ATRAC" }, { 0x64, "APICOM G.726 ADPCM" }, { 0x65, "APICOM G.722 ADPCM" }, { 0x66, "Microsoft DSAT" }, { 0x67, "Micorsoft DSAT DISPLAY" }, { 0x69, "Voxware Byte Aligned" }, { 0x70, "Voxware AC8" }, { 0x71, "Voxware AC10" }, { 0x72, "Voxware AC16" }, { 0x73, "Voxware AC20" }, { 0x74, "Voxware MetaVoice" }, { 0x75, "Voxware MetaSound" }, { 0x76, "Voxware RT29HW" }, { 0x77, "Voxware VR12" }, { 0x78, "Voxware VR18" }, { 0x79, "Voxware TQ40" }, { 0x7a, "Voxware SC3" }, { 0x7b, "Voxware SC3" }, { 0x80, "Soundsoft" }, { 0x81, "Voxware TQ60" }, { 0x82, "Microsoft MSRT24" }, { 0x83, "AT&T G.729A" }, { 0x84, "Motion Pixels MVI MV12" }, { 0x85, "DataFusion G.726" }, { 0x86, "DataFusion GSM610" }, { 0x88, "Iterated Systems Audio" }, { 0x89, "Onlive" }, { 0x8a, "Multitude, Inc. FT SX20" }, { 0x8b, "Infocom ITS A/S G.721 ADPCM" }, { 0x8c, "Convedia G729" }, { 0x8d, "Not specified congruency, Inc." }, { 0x91, "Siemens SBC24" }, { 0x92, "Sonic Foundry Dolby AC3 APDIF" }, { 0x93, "MediaSonic G.723" }, { 0x94, "Aculab Prosody 8kbps" }, { 0x97, "ZyXEL ADPCM" }, { 0x98, "Philips LPCBB" }, { 0x99, "Studer Professional Audio Packed" }, { 0xa0, "Malden PhonyTalk" }, { 0xa1, "Racal Recorder GSM" }, { 0xa2, "Racal Recorder G720.a" }, { 0xa3, "Racal G723.1" }, { 0xa4, "Racal Tetra ACELP" }, { 0xb0, "NEC AAC NEC Corporation" }, { 0xff, "AAC" }, { 0x100, "Rhetorex ADPCM" }, { 0x101, "IBM u-Law" }, { 0x102, "IBM a-Law" }, { 0x103, "IBM ADPCM" }, { 0x111, "Vivo G.723" }, { 0x112, "Vivo Siren" }, { 0x120, "Philips Speech Processing CELP" }, { 0x121, "Philips Speech Processing GRUNDIG" }, { 0x123, "Digital G.723" }, { 0x125, "Sanyo LD ADPCM" }, { 0x130, "Sipro Lab ACEPLNET" }, { 0x131, "Sipro Lab ACELP4800" }, { 0x132, "Sipro Lab ACELP8V3" }, { 0x133, "Sipro Lab G.729" }, { 0x134, "Sipro Lab G.729A" }, { 0x135, "Sipro Lab Kelvin" }, { 0x136, "VoiceAge AMR" }, { 0x140, "Dictaphone G.726 ADPCM" }, { 0x150, "Qualcomm PureVoice" }, { 0x151, "Qualcomm HalfRate" }, { 0x155, "Ring Zero Systems TUBGSM" }, { 0x160, "Microsoft Audio1" }, { 0x161, "Windows Media Audio V2 V7 V8 V9 / DivX audio (WMA) / Alex AC3 Audio" }, { 0x162, "Windows Media Audio Professional V9" }, { 0x163, "Windows Media Audio Lossless V9" }, { 0x164, "WMA Pro over S/PDIF" }, { 0x170, "UNISYS NAP ADPCM" }, { 0x171, "UNISYS NAP ULAW" }, { 0x172, "UNISYS NAP ALAW" }, { 0x173, "UNISYS NAP 16K" }, { 0x174, "MM SYCOM ACM SYC008 SyCom Technologies" }, { 0x175, "MM SYCOM ACM SYC701 G726L SyCom Technologies" }, { 0x176, "MM SYCOM ACM SYC701 CELP54 SyCom Technologies" }, { 0x177, "MM SYCOM ACM SYC701 CELP68 SyCom Technologies" }, { 0x178, "Knowledge Adventure ADPCM" }, { 0x180, "Fraunhofer IIS MPEG2AAC" }, { 0x190, "Digital Theater Systems DTS DS" }, { 0x200, "Creative Labs ADPCM" }, { 0x202, "Creative Labs FASTSPEECH8" }, { 0x203, "Creative Labs FASTSPEECH10" }, { 0x210, "UHER ADPCM" }, { 0x215, "Ulead DV ACM" }, { 0x216, "Ulead DV ACM" }, { 0x220, "Quarterdeck Corp." }, { 0x230, "I-Link VC" }, { 0x240, "Aureal Semiconductor Raw Sport" }, { 0x241, "ESST AC3" }, { 0x250, "Interactive Products HSX" }, { 0x251, "Interactive Products RPELP" }, { 0x260, "Consistent CS2" }, { 0x270, "Sony SCX" }, { 0x271, "Sony SCY" }, { 0x272, "Sony ATRAC3" }, { 0x273, "Sony SPC" }, { 0x280, "TELUM Telum Inc." }, { 0x281, "TELUMIA Telum Inc." }, { 0x285, "Norcom Voice Systems ADPCM" }, { 0x300, "Fujitsu FM TOWNS SND" }, { 0x301, "Fujitsu (not specified)" }, { 0x302, "Fujitsu (not specified)" }, { 0x303, "Fujitsu (not specified)" }, { 0x304, "Fujitsu (not specified)" }, { 0x305, "Fujitsu (not specified)" }, { 0x306, "Fujitsu (not specified)" }, { 0x307, "Fujitsu (not specified)" }, { 0x308, "Fujitsu (not specified)" }, { 0x350, "Micronas Semiconductors, Inc. Development" }, { 0x351, "Micronas Semiconductors, Inc. CELP833" }, { 0x400, "Brooktree Digital" }, { 0x401, "Intel Music Coder (IMC)" }, { 0x402, "Ligos Indeo Audio" }, { 0x450, "QDesign Music" }, { 0x500, "On2 VP7 On2 Technologies" }, { 0x501, "On2 VP6 On2 Technologies" }, { 0x680, "AT&T VME VMPCM" }, { 0x681, "AT&T TCP" }, { 0x700, "YMPEG Alpha (dummy for MPEG-2 compressor)" }, { 0x8ae, "ClearJump LiteWave (lossless)" }, { 0x1000, "Olivetti GSM" }, { 0x1001, "Olivetti ADPCM" }, { 0x1002, "Olivetti CELP" }, { 0x1003, "Olivetti SBC" }, { 0x1004, "Olivetti OPR" }, { 0x1100, "Lernout & Hauspie" }, { 0x1101, "Lernout & Hauspie CELP codec" }, { 0x1102, "Lernout & Hauspie SBC codec" }, { 0x1103, "Lernout & Hauspie SBC codec" }, { 0x1104, "Lernout & Hauspie SBC codec" }, { 0x1400, "Norris Comm. Inc." }, { 0x1401, "ISIAudio" }, { 0x1500, "AT&T Soundspace Music Compression" }, { 0x181c, "VoxWare RT24 speech codec" }, { 0x181e, "Lucent elemedia AX24000P Music codec" }, { 0x1971, "Sonic Foundry LOSSLESS" }, { 0x1979, "Innings Telecom Inc. ADPCM" }, { 0x1c07, "Lucent SX8300P speech codec" }, { 0x1c0c, "Lucent SX5363S G.723 compliant codec" }, { 0x1f03, "CUseeMe DigiTalk (ex-Rocwell)" }, { 0x1fc4, "NCT Soft ALF2CD ACM" }, { 0x2000, "FAST Multimedia DVM" }, { 0x2001, "Dolby DTS (Digital Theater System)" }, { 0x2002, "RealAudio 1 / 2 14.4" }, { 0x2003, "RealAudio 1 / 2 28.8" }, { 0x2004, "RealAudio G2 / 8 Cook (low bitrate)" }, { 0x2005, "RealAudio 3 / 4 / 5 Music (DNET)" }, { 0x2006, "RealAudio 10 AAC (RAAC)" }, { 0x2007, "RealAudio 10 AAC+ (RACP)" }, { 0x2500, "Reserved range to 0x2600 Microsoft" }, { 0x3313, "makeAVIS (ffvfw fake AVI sound from AviSynth scripts)" }, { 0x4143, "Divio MPEG-4 AAC audio" }, { 0x4201, "Nokia adaptive multirate" }, { 0x4243, "Divio G726 Divio, Inc." }, { 0x434c, "LEAD Speech" }, { 0x564c, "LEAD Vorbis" }, { 0x5756, "WavPack Audio" }, { 0x674f, "Ogg Vorbis (mode 1)" }, { 0x6750, "Ogg Vorbis (mode 2)" }, { 0x6751, "Ogg Vorbis (mode 3)" }, { 0x676f, "Ogg Vorbis (mode 1+)" }, { 0x6770, "Ogg Vorbis (mode 2+)" }, { 0x6771, "Ogg Vorbis (mode 3+)" }, { 0x7000, "3COM NBX 3Com Corporation" }, { 0x706d, "FAAD AAC" }, { 0x7a21, "GSM-AMR (CBR, no SID)" }, { 0x7a22, "GSM-AMR (VBR, including SID)" }, { 0xa100, "Comverse Infosys Ltd. G723 1" }, { 0xa101, "Comverse Infosys Ltd. AVQSBC" }, { 0xa102, "Comverse Infosys Ltd. OLDSBC" }, { 0xa103, "Symbol Technologies G729A" }, { 0xa104, "VoiceAge AMR WB VoiceAge Corporation" }, { 0xa105, "Ingenient Technologies Inc. G726" }, { 0xa106, "ISO/MPEG-4 advanced audio Coding" }, { 0xa107, "Encore Software Ltd G726" }, { 0xa109, "Speex ACM Codec xiph.org" }, { 0xdfac, "DebugMode SonicFoundry Vegas FrameServer ACM Codec" }, { 0xe708, "Unknown -" }, { 0xf1ac, "Free Lossless Audio Codec FLAC" }, { 0xfffe, "Extensible" }, { 0xffff, "Development" } }; extern const TagDetails nikonAVITags[] = { { 0x0003, "Xmp.video.Make" }, { 0x0004, "Xmp.video.Model" }, { 0x0005, "Xmp.video.Software" }, { 0x0006, "Xmp.video.Equipment" }, { 0x0007, "Xmp.video.Orientation" }, { 0x0008, "Xmp.video.ExposureTime" }, { 0x0009, "Xmp.video.FNumber" }, { 0x000a, "Xmp.video.ExposureCompensation" }, { 0x000b, "Xmp.video.MaxApertureValue" }, { 0x000c, "Xmp.video.MeteringMode" }, { 0x000f, "Xmp.video.FocalLength" }, { 0x0010, "Xmp.video.XResolution" }, { 0x0011, "Xmp.video.YResolution" }, { 0x0012, "Xmp.video.ResolutionUnit" }, { 0x0013, "Xmp.video.DateTimeOriginal" }, { 0x0014, "Xmp.video.DateTimeDigitized" }, { 0x0016, "Xmp.video.duration" }, { 0x0018, "Xmp.video.FocusMode" }, { 0x001b, "Xmp.video.DigitalZoomRatio" }, { 0x001d, "Xmp.video.ColorMode" }, { 0x001e, "Xmp.video.Sharpness" }, { 0x001f, "Xmp.video.WhiteBalance" }, { 0x0020, "Xmp.video.ColorNoiseReduction" } }; /* extern const TagDetails orientation[] = { { 1, "Horizontal (normal)" }, { 2, "Mirror horizontal" }, { 3, "Rotate 180" }, { 4, "Mirror vertical" }, { 5, "Mirror horizontal and rotate 270 CW" }, { 6, "Rotate 90 CW" }, { 7, "Mirror horizontal and rotate 90 CW" }, { 8, "Rotate 270 CW" } }; */ extern const TagDetails meteringMode[] = { { 0, "Unknown" }, { 1, "Average" }, { 2, "Center-weighted average" }, { 3, "Spot" }, { 4, "Multi-spot" }, { 5, "Multi-segment" }, { 6, "Partial" }, { 255, "Other" } }; extern const TagDetails resolutionUnit[] = { { 1, "None" }, { 2, "inches" }, { 3, "cm" } }; /*! @brief Function used to check equality of a Tags with a particular string (ignores case while comparing). @param buf Data buffer that will contain Tag to compare @param str char* Pointer to string @return Returns true if the buffer value is equal to string. */ bool equalsRiffTag(Exiv2::DataBuf& buf ,const char* str) { for(int i = 0; i < 4; i++ ) if(toupper(buf.pData_[i]) != str[i]) return false; return true; } enum streamTypeInfo { Audio = 1, MIDI, Text, Video }; enum streamHeaderTags { codec = 1, sampleRate = 5, sampleCount = 8, quality = 10, sampleSize }; enum bmptags { imageWidth, imageHeight, planes, bitDepth, compression, imageLength, pixelsPerMeterX, pixelsPerMeterY, numColors, numImportantColors }; enum audioFormatTags { encoding, numberOfChannels, audioSampleRate, avgBytesPerSec = 4, bitsPerSample = 7 }; enum aviHeaderTags { frameRate, maxDataRate, frameCount = 4, streamCount = 6, imageWidth_h = 8, imageHeight_h }; }} // namespace Internal, Exiv2 namespace Exiv2 { using namespace Exiv2::Internal; RiffVideo::RiffVideo(BasicIo::AutoPtr io) : Image(ImageType::riff, mdNone, io) { } // RiffVideo::RiffVideo std::string RiffVideo::mimeType() const { return "video/riff"; } const int RiffVideo::RIFF_TAG_SIZE = 0x4; const char* RiffVideo::RIFF_CHUNK_HEADER_ICCP = "ICCP"; const char* RiffVideo::RIFF_CHUNK_HEADER_EXIF = "EXIF"; const char* RiffVideo::RIFF_CHUNK_HEADER_XMP = "XMP "; /*! @brief Function used to check equality of a Tags with a particular string (ignores case while comparing). @param buf Data buffer that will contain Tag to compare @param str char* Pointer to string @return Returns true if the buffer value is equal to string. */ bool RiffVideo::equalsRiffTag(Exiv2::DataBuf& buf, const char* str) { for(int i = 0; i < 4; i++ ) if(toupper(buf.pData_[i]) != str[i]) return false; return true; } void RiffVideo::printStructure(std::ostream& out, PrintStructureOption option, int depth) { if (io_->open() != 0) { throw Error(kerDataSourceOpenFailed, io_->path(), strError()); } // Ensure this is the correct image type if (!isRiffType(*io_, true)) { if (io_->error() || io_->eof()) throw Error(kerFailedToReadImageData); throw Error(kerNotAnImage, "RIFF"); } bool bPrint = option==kpsBasic || option==kpsRecursive; if ( bPrint || option == kpsXMP || option == kpsIccProfile || option == kpsIptcErase ) { byte data [RIFF_TAG_SIZE * 2]; io_->read(data, RIFF_TAG_SIZE * 2); uint64_t filesize = Exiv2::getULong(data + RIFF_TAG_SIZE, littleEndian); DataBuf chunkId(5) ; chunkId.pData_[4] = '\0' ; if ( bPrint ) { out << Internal::indent(depth) << "STRUCTURE OF RIFF FILE: " << io().path() << std::endl; out << Internal::indent(depth) << Internal::stringFormat(" Chunk | Length | Offset | Payload") << std::endl; } io_->seek(0,BasicIo::beg); // rewind while ( !io_->eof() && (uint64_t) io_->tell() < filesize) { uint64_t offset = (uint64_t) io_->tell(); byte size_buff[RIFF_TAG_SIZE]; io_->read(chunkId.pData_, RIFF_TAG_SIZE); io_->read(size_buff, RIFF_TAG_SIZE); long size = Exiv2::getULong(size_buff, littleEndian); DataBuf payload(offset?size:RIFF_TAG_SIZE); // header is different from chunks io_->read(payload.pData_, payload.size_); if ( bPrint ) { out << Internal::indent(depth) << Internal::stringFormat(" %s | %12u | %12u | ", (const char*)chunkId.pData_,size,(uint32_t)offset) << Internal::binaryToString(makeSlice(payload, 0, payload.size_ > 32 ? 32 : payload.size_)) << std::endl; } if ( equalsRiffTag(chunkId, RIFF_CHUNK_HEADER_EXIF) && option==kpsRecursive ) { // create memio object with the payload, then print the structure BasicIo::AutoPtr p = BasicIo::AutoPtr(new MemIo(payload.pData_,payload.size_)); printTiffStructure(*p,out,option,depth); } bool bPrintPayload = (equalsRiffTag(chunkId, RIFF_CHUNK_HEADER_XMP) && option==kpsXMP) || (equalsRiffTag(chunkId, RIFF_CHUNK_HEADER_ICCP) && option==kpsIccProfile) ; if ( bPrintPayload ) { out.write((const char*) payload.pData_,payload.size_); } if ( offset && io_->tell() % 2 ) io_->seek(+1, BasicIo::cur); // skip padding byte on sub-chunks } } } // RiffVideo::printStructure void RiffVideo::writeMetadata() { } // RiffVideo::writeMetadata void RiffVideo::readMetadata() { if (io_->open() != 0) throw Error(kerDataSourceOpenFailed, io_->path(), strError()); // Ensure that this is the correct image type if (!isRiffType(*io_, false)) { if (io_->error() || io_->eof()) throw Error(kerFailedToReadImageData); throw Error(kerNotAnImage, "RIFF"); } IoCloser closer(*io_); clearMetadata(); continueTraversing_ = true; xmpData_["Xmp.video.FileSize"] = (double)io_->size()/(double)1048576; xmpData_["Xmp.video.FileName"] = io_->path(); xmpData_["Xmp.video.MimeType"] = mimeType(); const long bufMinSize = 4; DataBuf buf(bufMinSize+1); buf.pData_[4] = '\0'; io_->read(buf.pData_, bufMinSize); xmpData_["Xmp.video.Container"] = buf.pData_; io_->read(buf.pData_, bufMinSize); io_->read(buf.pData_, bufMinSize); xmpData_["Xmp.video.FileType"] = buf.pData_; while (continueTraversing_) decodeBlock(); } // RiffVideo::readMetadata void RiffVideo::decodeBlock() { const long bufMinSize = 4; DataBuf buf(bufMinSize+1); DataBuf buf2(bufMinSize+1); unsigned long size = 0; buf.pData_[4] = '\0' ; buf2.pData_[4] = '\0' ; io_->read(buf2.pData_, 4); if(io_->eof() || equalsRiffTag(buf2, "MOVI") || equalsRiffTag(buf2, "DATA")) { continueTraversing_ = false; return; } else if(equalsRiffTag(buf2, "HDRL") || equalsRiffTag(buf2, "STRL")) { decodeBlock(); } else { io_->read(buf.pData_, 4); size = Exiv2::getULong(buf.pData_, littleEndian); tagDecoder(buf2, size); } } // RiffVideo::decodeBlock void RiffVideo::tagDecoder(Exiv2::DataBuf& buf, unsigned long size) { uint64_t cur_pos = io_->tell(); static bool listFlag = false, listEnd = false; if(equalsRiffTag(buf, "LIST")) { listFlag = true; listEnd = false; while((uint64_t)(io_->tell()) < cur_pos + size) decodeBlock(); listEnd = true; io_->seek(cur_pos + size, BasicIo::beg); } else if(equalsRiffTag(buf, "JUNK") && listEnd) { junkHandler(size); } else if(equalsRiffTag(buf, "AVIH")) { listFlag = false; aviHeaderTagsHandler(size); } else if(equalsRiffTag(buf, "STRH")) { listFlag = false; streamHandler(size); } else if(equalsRiffTag(buf,"STRF") || equalsRiffTag(buf, "FMT ")) { listFlag = false; if(equalsRiffTag(buf,"FMT ")) streamType_ = Audio; streamFormatHandler(size); } else if(equalsRiffTag(buf, "STRN")) { listFlag = false; dateTimeOriginal(size, 1); } else if(equalsRiffTag(buf, "STRD")) { listFlag = false; streamDataTagHandler(size); } else if(equalsRiffTag(buf, "IDIT")) { listFlag = false; dateTimeOriginal(size); } else if(equalsRiffTag(buf, "INFO")) { listFlag = false; infoTagsHandler(); } else if(equalsRiffTag(buf, "NCDT")) { listFlag = false; nikonTagsHandler(); } else if(equalsRiffTag(buf, "ODML")) { listFlag = false; odmlTagsHandler(); } else if (listFlag) { // std::cout<<"|unprocessed|"<seek(cur_pos + size, BasicIo::beg); } } // RiffVideo::tagDecoder void RiffVideo::streamDataTagHandler(long size) { const long bufMinSize = 20000; DataBuf buf(bufMinSize); buf.pData_[4] = '\0'; uint64_t cur_pos = io_->tell(); io_->read(buf.pData_, 8); if(equalsRiffTag(buf, "AVIF")) { if (size - 4 < 0) { #ifndef SUPPRESS_WARNINGS EXV_ERROR << " Exif Tags found in this RIFF file are not of valid size ." << " Entries considered invalid. Not Processed.\n"; #endif } else { io_->read(buf.pData_, size - 4); IptcData iptcData; XmpData xmpData; DummyTiffHeader tiffHeader(littleEndian); TiffParserWorker::decode(exifData_, iptcData, xmpData, buf.pData_, buf.size_, Tag::root, TiffMapping::findDecoder, &tiffHeader); #ifndef SUPPRESS_WARNINGS if (!iptcData.empty()) { EXV_WARNING << "Ignoring IPTC information encoded in the Exif data.\n"; } if (!xmpData.empty()) { EXV_WARNING << "Ignoring XMP information encoded in the Exif data.\n"; } #endif } } // TODO decode CasioData and ZORA Tag io_->seek(cur_pos + size, BasicIo::beg); } // RiffVideo::streamDataTagHandler void RiffVideo::dateTimeOriginal(long size, int i) { uint64_t cur_pos = io_->tell(); const long bufMinSize = 100; DataBuf buf(bufMinSize); io_->read(buf.pData_, size); if(!i) xmpData_["Xmp.video.DateUTC"] = buf.pData_; else xmpData_["Xmp.video.StreamName"] = buf.pData_; io_->seek(cur_pos + size, BasicIo::beg); } // RiffVideo::dateTimeOriginal void RiffVideo::odmlTagsHandler() { const long bufMinSize = 100; DataBuf buf(bufMinSize); buf.pData_[4] = '\0'; io_->seek(-12, BasicIo::cur); io_->read(buf.pData_, 4); unsigned long size = Exiv2::getULong(buf.pData_, littleEndian); unsigned long size2 = size; uint64_t cur_pos = io_->tell(); io_->read(buf.pData_, 4); size -= 4; while(size > 0) { io_->read(buf.pData_, 4); size -= 4; if(equalsRiffTag(buf,"DMLH")) { io_->read(buf.pData_, 4); size -= 4; io_->read(buf.pData_, 4); size -= 4; xmpData_["Xmp.video.TotalFrameCount"] = Exiv2::getULong(buf.pData_, littleEndian); } } io_->seek(cur_pos + size2, BasicIo::beg); } // RiffVideo::odmlTagsHandler void RiffVideo::skipListData() { const long bufMinSize = 4; DataBuf buf(bufMinSize+1); buf.pData_[4] = '\0'; io_->seek(-12, BasicIo::cur); io_->read(buf.pData_, 4); unsigned long size = Exiv2::getULong(buf.pData_, littleEndian); uint64_t cur_pos = io_->tell(); io_->seek(cur_pos + size, BasicIo::beg); } // RiffVideo::skipListData void RiffVideo::nikonTagsHandler() { const long bufMinSize = 100; DataBuf buf(bufMinSize), buf2(4+1); buf.pData_[4] = '\0'; io_->seek(-12, BasicIo::cur); io_->read(buf.pData_, 4); long internal_size = 0, tagID = 0, dataSize = 0, tempSize, size = Exiv2::getULong(buf.pData_, littleEndian); tempSize = size; char str[9] = " . . . "; uint64_t internal_pos, cur_pos; internal_pos = cur_pos = io_->tell(); const TagDetails* td; double denominator = 1; io_->read(buf.pData_, 4); tempSize -= 4; while(tempSize > 0) { std::memset(buf.pData_, 0x0, buf.size_); io_->read(buf.pData_, 4); io_->read(buf2.pData_, 4); int temp = internal_size = Exiv2::getULong(buf2.pData_, littleEndian); internal_pos = io_->tell(); tempSize -= (internal_size + 8); if(equalsRiffTag(buf, "NCVR")) { while((long)temp > 3) { std::memset(buf.pData_, 0x0, buf.size_); io_->read(buf.pData_, 2); tagID = Exiv2::getULong(buf.pData_, littleEndian); io_->read(buf.pData_, 2); dataSize = Exiv2::getULong(buf.pData_, littleEndian); temp -= (4 + dataSize); if(tagID == 0x0001) { if (dataSize <= 0) { #ifndef SUPPRESS_WARNINGS EXV_ERROR << " Makernotes found in this RIFF file are not of valid size ." << " Entries considered invalid. Not Processed.\n"; #endif } else { io_->read(buf.pData_, dataSize); xmpData_["Xmp.video.MakerNoteType"] = buf.pData_; } } else if (tagID == 0x0002) { while(dataSize) { std::memset(buf.pData_, 0x0, buf.size_); io_->read(buf.pData_, 1); str[(4 - dataSize) * 2] = (char)(Exiv2::getULong(buf.pData_, littleEndian) + 48); --dataSize; } xmpData_["Xmp.video.MakerNoteVersion"] = str; } } } else if(equalsRiffTag(buf, "NCTG")) { while((long)temp > 3) { std::memset(buf.pData_, 0x0, buf.size_); io_->read(buf.pData_, 2); tagID = Exiv2::getULong(buf.pData_, littleEndian); io_->read(buf.pData_, 2); dataSize = Exiv2::getULong(buf.pData_, littleEndian); temp -= (4 + dataSize); td = find(nikonAVITags , tagID); if (dataSize <= 0) { #ifndef SUPPRESS_WARNINGS EXV_ERROR << " Makernotes found in this RIFF file are not of valid size ." << " Entries considered invalid. Not Processed.\n"; #endif } else { io_->read(buf.pData_, dataSize); switch (tagID) { case 0x0003: case 0x0004: case 0x0005: case 0x0006: case 0x0013: case 0x0014: case 0x0018: case 0x001d: case 0x001e: case 0x001f: case 0x0020: xmpData_[exvGettext(td->label_)] = buf.pData_; break; case 0x0007: case 0x0010: case 0x0011: case 0x000c: case 0x0012: xmpData_[exvGettext(td->label_)] = Exiv2::getULong(buf.pData_, littleEndian); break; case 0x0008: case 0x0009: case 0x000a: case 0x000b: case 0x000f: case 0x001b: case 0x0016: buf2.pData_[0] = buf.pData_[4]; buf2.pData_[1] = buf.pData_[5]; buf2.pData_[2] = buf.pData_[6]; buf2.pData_[3] = buf.pData_[7]; denominator = (double)Exiv2::getLong(buf2.pData_, littleEndian); if (denominator != 0) xmpData_[exvGettext(td->label_)] = (double)Exiv2::getLong(buf.pData_, littleEndian) / denominator; else xmpData_[exvGettext(td->label_)] = 0; break; default: break; } } } } else if(equalsRiffTag(buf, "NCTH")) {//TODO Nikon Thumbnail Image } else if(equalsRiffTag(buf, "NCVW")) {//TODO Nikon Preview Image } io_->seek(internal_pos + internal_size, BasicIo::beg); } if (size ==0) { io_->seek(cur_pos + 4, BasicIo::beg); } else { io_->seek(cur_pos + size, BasicIo::beg); } } // RiffVideo::nikonTagsHandler void RiffVideo::infoTagsHandler() { const long bufMinSize = 10000; DataBuf buf(bufMinSize); buf.pData_[4] = '\0'; io_->seek(-12, BasicIo::cur); io_->read(buf.pData_, 4); long infoSize, size = Exiv2::getULong(buf.pData_, littleEndian); long size_external = size; const TagVocabulary* tv; uint64_t cur_pos = io_->tell(); io_->read(buf.pData_, 4); size -= 4; while(size > 3) { io_->read(buf.pData_, 4); size -= 4; if(!Exiv2::getULong(buf.pData_, littleEndian)) break; tv = find(infoTags , Exiv2::toString( buf.pData_)); io_->read(buf.pData_, 4); size -= 4; infoSize = Exiv2::getULong(buf.pData_, littleEndian); if(infoSize >= 0) { size -= infoSize; io_->read(buf.pData_, infoSize); if(infoSize < 4) buf.pData_[infoSize] = '\0'; } if(tv) xmpData_[exvGettext(tv->label_)] = buf.pData_; else continue; } io_->seek(cur_pos + size_external, BasicIo::beg); } // RiffVideo::infoTagsHandler void RiffVideo::junkHandler(long size) { const long bufMinSize = size; if (size < 0) { #ifndef SUPPRESS_WARNINGS EXV_ERROR << " Junk Data found in this RIFF file are not of valid size ." << " Entries considered invalid. Not Processed.\n"; #endif io_->seek(io_->tell() + 4, BasicIo::beg); } else { DataBuf buf(bufMinSize+1), buf2(4+1); std::memset(buf.pData_, 0x0, buf.size_); buf2.pData_[4] = '\0'; uint64_t cur_pos = io_->tell(); io_->read(buf.pData_, 4); //! Pentax Metadata and Tags if(equalsRiffTag(buf, "PENT")) { io_->seek(cur_pos + 18, BasicIo::beg); io_->read(buf.pData_, 26); xmpData_["Xmp.video.Make"] = buf.pData_; io_->read(buf.pData_, 50); xmpData_["Xmp.video.Model"] = buf.pData_; std::memset(buf.pData_, 0x0, buf.size_); io_->read(buf.pData_, 8); buf2.pData_[0] = buf.pData_[4]; buf2.pData_[1] = buf.pData_[5]; buf2.pData_[2] = buf.pData_[6]; buf2.pData_[3] = buf.pData_[7]; xmpData_["Xmp.video.FNumber"] = (double)Exiv2::getLong(buf.pData_, littleEndian) / (double)Exiv2::getLong(buf2.pData_, littleEndian);; io_->seek(cur_pos + 131, BasicIo::beg); io_->read(buf.pData_, 26); xmpData_["Xmp.video.DateTimeOriginal"] = buf.pData_; io_->read(buf.pData_, 26); xmpData_["Xmp.video.DateTimeDigitized"] = buf.pData_; io_->seek(cur_pos + 299, BasicIo::beg); std::memset(buf.pData_, 0x0, buf.size_); io_->read(buf.pData_, 2); Exiv2::XmpTextValue tv(Exiv2::toString(Exiv2::getLong(buf.pData_, littleEndian))); xmpData_.add(Exiv2::XmpKey("Xmp.xmp.Thumbnails/xmpGImg:width"), &tv); io_->read(buf.pData_, 2); tv.read(Exiv2::toString(Exiv2::getLong(buf.pData_, littleEndian))); xmpData_.add(Exiv2::XmpKey("Xmp.xmp.Thumbnails/xmpGImg:height"), &tv); io_->read(buf.pData_, 4); /* TODO - Storing the image Thumbnail in Base64 Format uint64_t length = Exiv2::getLong(buf.pData_, littleEndian); io_->read(buf.pData_, length); char *rawStr = Exiv2::toString(buf.pData_); char *encodedStr; SXMPUtils::EncodeToBase64(rawStr, encodedStr); tv.read(Exiv2::toString(encodedStr)); xmpData_.add(Exiv2::XmpKey("Xmp.xmp.Thumbnails/xmpGImg:image"), &tv); */ } else { io_->seek(cur_pos, BasicIo::beg); io_->read(buf.pData_, size); xmpData_["Xmp.video.Junk"] = buf.pData_; } io_->seek(cur_pos + size, BasicIo::beg); } } // RiffVideo::junkHandler void RiffVideo::aviHeaderTagsHandler(long size) { const long bufMinSize = 4; DataBuf buf(bufMinSize+1); buf.pData_[4] = '\0'; long width = 0, height = 0, frame_count = 0; double frame_rate = 1; uint64_t cur_pos = io_->tell(); for(int i = 0; i <= 9; i++) { std::memset(buf.pData_, 0x0, buf.size_); io_->read(buf.pData_, bufMinSize); switch(i) { case frameRate: xmpData_["Xmp.video.MicroSecPerFrame"] = Exiv2::getULong(buf.pData_, littleEndian); frame_rate = (double)1000000/(double)Exiv2::getULong(buf.pData_, littleEndian); break; case (maxDataRate): xmpData_["Xmp.video.MaxDataRate"] = (double)Exiv2::getULong(buf.pData_, littleEndian)/(double)1024; break; case frameCount: xmpData_["Xmp.video.FrameCount"] = Exiv2::getULong(buf.pData_, littleEndian); frame_count = Exiv2::getULong(buf.pData_, littleEndian); break; case streamCount: xmpData_["Xmp.video.StreamCount"] = Exiv2::getULong(buf.pData_, littleEndian); break; case imageWidth_h: width = Exiv2::getULong(buf.pData_, littleEndian); xmpData_["Xmp.video.Width"] = width; break; case imageHeight_h: height = Exiv2::getULong(buf.pData_, littleEndian); xmpData_["Xmp.video.Height"] = height; break; } } fillAspectRatio(width, height); fillDuration(frame_rate, frame_count); io_->seek(cur_pos + size, BasicIo::beg); } // RiffVideo::aviHeaderTagsHandler void RiffVideo::streamHandler(long size) { const long bufMinSize = 4; DataBuf buf(bufMinSize+1); buf.pData_[4]='\0'; long divisor = 1; uint64_t cur_pos = io_->tell(); io_->read(buf.pData_, bufMinSize); if(equalsRiffTag(buf, "VIDS")) streamType_ = Video; else if (equalsRiffTag(buf, "AUDS")) streamType_ = Audio; for(int i=1; i<=25; i++) { std::memset(buf.pData_, 0x0, buf.size_); io_->read(buf.pData_, bufMinSize); switch(i) { case codec: if(streamType_ == Video) xmpData_["Xmp.video.Codec"] = buf.pData_; else if (streamType_ == Audio) xmpData_["Xmp.audio.Codec"] = buf.pData_; else xmpData_["Xmp.video.Codec"] = buf.pData_; break; case sampleRate: divisor=Exiv2::getULong(buf.pData_, littleEndian); break; case (sampleRate+1): if(streamType_ == Video) xmpData_["Xmp.video.FrameRate"] = returnSampleRate(buf,divisor); else if (streamType_ == Audio) xmpData_["Xmp.audio.SampleRate"] = returnSampleRate(buf,divisor); else xmpData_["Xmp.video.StreamSampleRate"] = returnSampleRate(buf,divisor); break; case sampleCount: if(streamType_ == Video) xmpData_["Xmp.video.FrameCount"] = Exiv2::getULong(buf.pData_, littleEndian); else if (streamType_ == Audio) xmpData_["Xmp.audio.SampleCount"] = Exiv2::getULong(buf.pData_, littleEndian); else xmpData_["Xmp.video.StreamSampleCount"] = Exiv2::getULong(buf.pData_, littleEndian); break; case quality: if(streamType_ == Video) xmpData_["Xmp.video.VideoQuality"] = Exiv2::getULong(buf.pData_, littleEndian); else if(streamType_ != Audio) xmpData_["Xmp.video.StreamQuality"] = Exiv2::getULong(buf.pData_, littleEndian); break; case sampleSize: if(streamType_ == Video) xmpData_["Xmp.video.VideoSampleSize"] = Exiv2::getULong(buf.pData_, littleEndian); else if(streamType_ != Audio) xmpData_["Xmp.video.StreamSampleSize"] = Exiv2::getULong(buf.pData_, littleEndian); break; } } io_->seek(cur_pos + size, BasicIo::beg); } // RiffVideo::streamHandler void RiffVideo::streamFormatHandler(long size) { const long bufMinSize = 4; DataBuf buf(bufMinSize+1); buf.pData_[4] = '\0'; uint64_t cur_pos = io_->tell(); if(streamType_ == Video) { io_->read(buf.pData_, bufMinSize); for(int i = 0; i <= 9; i++) { std::memset(buf.pData_, 0x0, buf.size_); switch(i) { case imageWidth: //Will be used in case of debugging io_->read(buf.pData_, bufMinSize); break; case imageHeight: //Will be used in case of debugging io_->read(buf.pData_, bufMinSize); break; case planes: io_->read(buf.pData_, 2); xmpData_["Xmp.video.Planes"] = Exiv2::getUShort(buf.pData_, littleEndian); break; case bitDepth: io_->read(buf.pData_, 2); xmpData_["Xmp.video.PixelDepth"] = Exiv2::getUShort(buf.pData_, littleEndian); break; case compression: io_->read(buf.pData_, bufMinSize); xmpData_["Xmp.video.Compressor"] = buf.pData_; break; case imageLength: io_->read(buf.pData_, bufMinSize); xmpData_["Xmp.video.ImageLength"] = Exiv2::getULong(buf.pData_, littleEndian); break; case pixelsPerMeterX: io_->read(buf.pData_, bufMinSize); xmpData_["Xmp.video.PixelPerMeterX"] = Exiv2::getULong(buf.pData_, littleEndian); break; case pixelsPerMeterY: io_->read(buf.pData_, bufMinSize); xmpData_["Xmp.video.PixelPerMeterY"] = Exiv2::getULong(buf.pData_, littleEndian); break; case numColors: io_->read(buf.pData_, bufMinSize); if(Exiv2::getULong(buf.pData_, littleEndian) == 0) { xmpData_["Xmp.video.NumOfColours"] = "Unspecified"; } else { xmpData_["Xmp.video.NumOfColours"] = Exiv2::getULong(buf.pData_, littleEndian); } break; case numImportantColors: io_->read(buf.pData_, bufMinSize); if(Exiv2::getULong(buf.pData_, littleEndian)) { xmpData_["Xmp.video.NumIfImpColours"] = Exiv2::getULong(buf.pData_, littleEndian); } else { xmpData_["Xmp.video.NumOfImpColours"] = "All"; } break; } } } else if(streamType_ == Audio) { int c = 0; const TagDetails* td; for(int i = 0; i <= 7; i++) { io_->read(buf.pData_, 2); switch(i) { case encoding: td = find(audioEncodingValues , Exiv2::getUShort(buf.pData_, littleEndian)); if(td) { xmpData_["Xmp.audio.Compressor"] = exvGettext(td->label_); } else { xmpData_["Xmp.audio.Compressor"] = Exiv2::getUShort(buf.pData_, littleEndian); } break; case numberOfChannels: c = Exiv2::getUShort(buf.pData_, littleEndian); if(c == 1) xmpData_["Xmp.audio.ChannelType"] = "Mono"; else if(c == 2) xmpData_["Xmp.audio.ChannelType"] = "Stereo"; else if(c == 5) xmpData_["Xmp.audio.ChannelType"] = "5.1 Surround Sound"; else if(c == 7) xmpData_["Xmp.audio.ChannelType"] = "7.1 Surround Sound"; else xmpData_["Xmp.audio.ChannelType"] = "Mono"; break; case audioSampleRate: xmpData_["Xmp.audio.SampleRate"] = Exiv2::getUShort(buf.pData_, littleEndian); break; case avgBytesPerSec: xmpData_["Xmp.audio.SampleType"] = Exiv2::getUShort(buf.pData_, littleEndian); break; case bitsPerSample: xmpData_["Xmp.audio.BitsPerSample"] = Exiv2::getUShort(buf.pData_,littleEndian); io_->read(buf.pData_, 2); break; } } } io_->seek(cur_pos + size, BasicIo::beg); } // RiffVideo::streamFormatHandler double RiffVideo::returnSampleRate(Exiv2::DataBuf& buf, long divisor) { return ((double)Exiv2::getULong(buf.pData_, littleEndian) / (double)divisor); } // RiffVideo::returnSampleRate const char* RiffVideo::printAudioEncoding(uint64_t i) { const TagDetails* td; td = find(audioEncodingValues , i); if(td) return exvGettext(td->label_); return "Undefined"; } // RiffVideo::printAudioEncoding void RiffVideo::fillAspectRatio(long width, long height) { double aspectRatio = (double)width / (double)height; aspectRatio = floor(aspectRatio*10) / 10; xmpData_["Xmp.video.AspectRatio"] = aspectRatio; int aR = (int) ((aspectRatio*10.0)+0.1); switch (aR) { case 13 : xmpData_["Xmp.video.AspectRatio"] = "4:3" ; break; case 17 : xmpData_["Xmp.video.AspectRatio"] = "16:9" ; break; case 10 : xmpData_["Xmp.video.AspectRatio"] = "1:1" ; break; case 16 : xmpData_["Xmp.video.AspectRatio"] = "16:10" ; break; case 22 : xmpData_["Xmp.video.AspectRatio"] = "2.21:1" ; break; case 23 : xmpData_["Xmp.video.AspectRatio"] = "2.35:1" ; break; case 12 : xmpData_["Xmp.video.AspectRatio"] = "5:4" ; break; default : xmpData_["Xmp.video.AspectRatio"] = aspectRatio;break; } } // RiffVideo::fillAspectRatio void RiffVideo::fillDuration(double frame_rate, long frame_count) { if(frame_rate == 0) return; uint64_t duration = static_cast((double)frame_count * 1000. / frame_rate); xmpData_["Xmp.video.FileDataRate"] = (double)io_->size()/(double)(1048576*duration); xmpData_["Xmp.video.Duration"] = duration; //Duration in number of seconds } // RiffVideo::fillDuration Image::AutoPtr newRiffInstance(BasicIo::AutoPtr io, bool /*create*/) { Image::AutoPtr image(new RiffVideo(io)); if (!image->good()) { image.reset(); } return image; } bool isRiffType(BasicIo& iIo, bool advance) { const int32_t len = 2; const unsigned char RiffVideoId[4] = { 'R', 'I', 'F' ,'F'}; byte buf[len]; iIo.read(buf, len); if (iIo.error() || iIo.eof()) { return false; } bool matched = (memcmp(buf, RiffVideoId, len) == 0); if (!advance || !matched) { iIo.seek(-len, BasicIo::cur); } return matched; } } // namespace Exiv2 #endif // EXV_ENABLE_VIDEO